/****************************************************************************
**
** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/legal
**
** This file is part of the QtDeclarative module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia.  For licensing terms and
** conditions see http://qt.digia.com/licensing.  For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file.  Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Digia gives you certain additional
** rights.  These rights are described in the Digia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.  Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
**
** $QT_END_LICENSE$
**
****************************************************************************/

#include "private/qdeclarativeobjectscriptclass_p.h"

#include "private/qdeclarativeengine_p.h"
#include "private/qdeclarativecontext_p.h"
#include "private/qdeclarativedata_p.h"
#include "private/qdeclarativetypenamescriptclass_p.h"
#include "private/qdeclarativelistscriptclass_p.h"
#include "private/qdeclarativebinding_p.h"
#include "private/qdeclarativeguard_p.h"
#include "private/qdeclarativevmemetaobject_p.h"

#include <QtCore/qtimer.h>
#include <QtCore/qvarlengtharray.h>
#include <QtScript/qscriptcontextinfo.h>

Q_DECLARE_METATYPE(QScriptValue)

#if defined(__GNUC__)
# if (__GNUC__ * 100 + __GNUC_MINOR__) >= 405
// The code in this file does not violate strict aliasing, but GCC thinks it does
// so turn off the warnings for us to have a clean build
#  pragma GCC diagnostic ignored "-Wstrict-aliasing"
# endif
#endif

QT_BEGIN_NAMESPACE

struct ObjectData : public QScriptDeclarativeClass::Object {
    ObjectData(QObject *o, int t) : object(o), type(t) {
        if (o) {
            QDeclarativeData *ddata = QDeclarativeData::get(object, true);
            if (ddata) ddata->objectDataRefCount++;
        }
    }

    virtual ~ObjectData() {
        if (object && !object->parent()) {
            QDeclarativeData *ddata = QDeclarativeData::get(object, false);
            if (ddata && !ddata->indestructible && 0 == --ddata->objectDataRefCount) 
                object->deleteLater();
        }
    }

    QDeclarativeGuard<QObject> object;
    int type;
};

/*
    The QDeclarativeObjectScriptClass handles property access for QObjects
    via QtScript. It is also used to provide a more useful API in
    QtScript for QML.
 */
QDeclarativeObjectScriptClass::QDeclarativeObjectScriptClass(QDeclarativeEngine *bindEngine)
: QScriptDeclarativeClass(QDeclarativeEnginePrivate::getScriptEngine(bindEngine)),
  methods(bindEngine), lastData(0), engine(bindEngine)
{
    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    m_destroy = scriptEngine->newFunction(destroy);
    m_destroyId = createPersistentIdentifier(QLatin1String("destroy"));
    m_toString = scriptEngine->newFunction(tostring);
    m_toStringId = createPersistentIdentifier(QLatin1String("toString"));
}

QDeclarativeObjectScriptClass::~QDeclarativeObjectScriptClass()
{
}

QScriptValue QDeclarativeObjectScriptClass::newQObject(QObject *object, int type)
{
    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    if (!object)
        return scriptEngine->nullValue();
//        return newObject(scriptEngine, this, new ObjectData(object, type));

    if (QObjectPrivate::get(object)->wasDeleted)
       return scriptEngine->undefinedValue();

    QDeclarativeData *ddata = QDeclarativeData::get(object, true);

    if (!ddata) {
       return scriptEngine->undefinedValue();
    } else if (!ddata->indestructible && !object->parent()) {
        return newObject(scriptEngine, this, new ObjectData(object, type));
    } else if (!ddata->scriptValue) {
        ddata->scriptValue = new QScriptValue(newObject(scriptEngine, this, new ObjectData(object, type)));
        return *ddata->scriptValue;
    } else if (ddata->scriptValue->engine() == QDeclarativeEnginePrivate::getScriptEngine(engine)) {
        return *ddata->scriptValue;
    } else {
        return newObject(scriptEngine, this, new ObjectData(object, type));
    }
}

QObject *QDeclarativeObjectScriptClass::toQObject(const QScriptValue &value) const
{
    return value.toQObject();
}

int QDeclarativeObjectScriptClass::objectType(const QScriptValue &value) const
{
    if (scriptClass(value) != this)
        return QVariant::Invalid;

    Object *o = object(value);
    return ((ObjectData*)(o))->type;
}

QScriptClass::QueryFlags
QDeclarativeObjectScriptClass::queryProperty(Object *object, const Identifier &name,
                                    QScriptClass::QueryFlags flags)
{
    return queryProperty(toQObject(object), name, flags, 0);
}

QScriptClass::QueryFlags
QDeclarativeObjectScriptClass::queryProperty(QObject *obj, const Identifier &name,
                                             QScriptClass::QueryFlags flags, QDeclarativeContextData *evalContext,
                                             QueryHints hints)
{
    Q_UNUSED(flags);
    lastData = 0;
    lastTNData = 0;

    if (name == m_destroyId.identifier ||
        name == m_toStringId.identifier)
        return QScriptClass::HandlesReadAccess;

    if (!obj)
        return 0;

    QDeclarativeEnginePrivate *enginePrivate = QDeclarativeEnginePrivate::get(engine);
    lastData = QDeclarativePropertyCache::property(engine, obj, name, local);
    if ((hints & ImplicitObject) && lastData && lastData->revision != 0) {

        QDeclarativeData *ddata = QDeclarativeData::get(obj);
        if (ddata && ddata->propertyCache && !ddata->propertyCache->isAllowedInRevision(lastData)) 
            return 0;
    }

    if (lastData)
        return QScriptClass::HandlesReadAccess | QScriptClass::HandlesWriteAccess;

    if (!(hints & SkipAttachedProperties)) {
        if (!evalContext && context()) {
            // Global object, QScriptContext activation object, QDeclarativeContext object
            QScriptValue scopeNode = scopeChainValue(context(), -3);
            if (scopeNode.isValid()) {
                Q_ASSERT(scriptClass(scopeNode) == enginePrivate->contextClass);

                evalContext = enginePrivate->contextClass->contextFromValue(scopeNode);
            }
        }

        if (evalContext && evalContext->imports) {
            QDeclarativeTypeNameCache::Data *data = evalContext->imports->data(name);
            if (data) {
                lastTNData = data;
                return QScriptClass::HandlesReadAccess;
            }
        }
    }

    if (!(hints & ImplicitObject)) {
        local.coreIndex = -1;
        lastData = &local;
        return QScriptClass::HandlesWriteAccess;
    }

    return 0;
}

QDeclarativeObjectScriptClass::Value
QDeclarativeObjectScriptClass::property(Object *object, const Identifier &name)
{
    return property(toQObject(object), name);
}

QDeclarativeObjectScriptClass::Value
QDeclarativeObjectScriptClass::property(QObject *obj, const Identifier &name)
{
    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    if (name == m_destroyId.identifier)
        return Value(scriptEngine, m_destroy);
    else if (name == m_toStringId.identifier)
        return Value(scriptEngine, m_toString);

    if (lastData && !lastData->isValid())
        return Value();

    Q_ASSERT(obj);

    QDeclarativeEnginePrivate *enginePriv = QDeclarativeEnginePrivate::get(engine);

    if (lastTNData) {

        if (lastTNData->type)
            return Value(scriptEngine, enginePriv->typeNameClass->newObject(obj, lastTNData->type));
        else
            return Value(scriptEngine, enginePriv->typeNameClass->newObject(obj, lastTNData->typeNamespace));

    } else if (lastData->flags & QDeclarativePropertyCache::Data::IsFunction) {
        if (lastData->flags & QDeclarativePropertyCache::Data::IsVMEFunction) {
            return Value(scriptEngine, ((QDeclarativeVMEMetaObject *)(obj->metaObject()))->vmeMethod(lastData->coreIndex));
        } else {
            // Uncomment to use QtScript method call logic
            // QScriptValue sobj = scriptEngine->newQObject(obj);
            // return Value(scriptEngine, sobj.property(toString(name)));
            return Value(scriptEngine, methods.newMethod(obj, lastData));
        }
    } else {
        if (enginePriv->captureProperties && !(lastData->flags & QDeclarativePropertyCache::Data::IsConstant)) {
            enginePriv->capturedProperties <<
                QDeclarativeEnginePrivate::CapturedProperty(obj, lastData->coreIndex, lastData->notifyIndex);
        }

        if (QDeclarativeValueTypeFactory::isValueType((uint)lastData->propType)) {
            QDeclarativeValueType *valueType = enginePriv->valueTypes[lastData->propType];
            if (valueType)
                return Value(scriptEngine, enginePriv->valueTypeClass->newObject(obj, lastData->coreIndex, valueType));
        }

        if (lastData->flags & QDeclarativePropertyCache::Data::IsQList) {
            return Value(scriptEngine, enginePriv->listClass->newList(obj, lastData->coreIndex, lastData->propType));
        } else if (lastData->flags & QDeclarativePropertyCache::Data::IsQObjectDerived) {
            QObject *rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, newQObject(rv, lastData->propType));
        } else if (lastData->flags & QDeclarativePropertyCache::Data::IsQScriptValue) {
            QScriptValue rv = scriptEngine->nullValue();
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::QReal) {
            qreal rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::Int || lastData->flags & QDeclarativePropertyCache::Data::IsEnumType) {
            int rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::Bool) {
            bool rv = false;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::QString) {
            QString rv;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::UInt) {
            uint rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::Float) {
            float rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else if (lastData->propType == QMetaType::Double) {
            double rv = 0;
            void *args[] = { &rv, 0 };
            QMetaObject::metacall(obj, QMetaObject::ReadProperty, lastData->coreIndex, args);
            return Value(scriptEngine, rv);
        } else {
            QVariant var = obj->metaObject()->property(lastData->coreIndex).read(obj);
            return Value(scriptEngine, enginePriv->scriptValueFromVariant(var));
        }
    }
}

void QDeclarativeObjectScriptClass::setProperty(Object *object,
                                       const Identifier &name,
                                       const QScriptValue &value)
{
    return setProperty(toQObject(object), name, value, context());
}

void QDeclarativeObjectScriptClass::setProperty(QObject *obj,
                                                const Identifier &name,
                                                const QScriptValue &value,
                                                QScriptContext *context,
                                                QDeclarativeContextData *evalContext)
{
    Q_UNUSED(name);

    Q_ASSERT(obj);
    Q_ASSERT(lastData);
    Q_ASSERT(context);

    if (!lastData->isValid()) {
        QString error = QLatin1String("Cannot assign to non-existent property \"") +
                        toString(name) + QLatin1Char('\"');
        context->throwError(error);
        return;
    }

    if (!(lastData->flags & QDeclarativePropertyCache::Data::IsWritable) && 
        !(lastData->flags & QDeclarativePropertyCache::Data::IsQList)) {
        QString error = QLatin1String("Cannot assign to read-only property \"") +
                        toString(name) + QLatin1Char('\"');
        context->throwError(error);
        return;
    }

    QDeclarativeEnginePrivate *enginePriv = QDeclarativeEnginePrivate::get(engine);

    if (!evalContext) {
        // Global object, QScriptContext activation object, QDeclarativeContext object
        QScriptValue scopeNode = scopeChainValue(context, -3);
        if (scopeNode.isValid()) {
            Q_ASSERT(scriptClass(scopeNode) == enginePriv->contextClass);

            evalContext = enginePriv->contextClass->contextFromValue(scopeNode);
        }
    }

    QDeclarativeBinding *newBinding = 0;
    if (value.isFunction() && !value.isRegExp()) {
        QScriptContextInfo ctxtInfo(context);
        QDeclarativePropertyCache::ValueTypeData valueTypeData;

        newBinding = new QDeclarativeBinding(value, obj, evalContext);
        newBinding->setSourceLocation(ctxtInfo.fileName(), ctxtInfo.functionStartLineNumber());
        newBinding->setTarget(QDeclarativePropertyPrivate::restore(*lastData, valueTypeData, obj, evalContext));
        if (newBinding->expression().contains(QLatin1String("this")))
            newBinding->setEvaluateFlags(newBinding->evaluateFlags() | QDeclarativeBinding::RequiresThisObject);
    }

    QDeclarativeAbstractBinding *delBinding =
        QDeclarativePropertyPrivate::setBinding(obj, lastData->coreIndex, -1, newBinding);
    if (delBinding)
        delBinding->destroy();

    if (value.isNull() && lastData->flags & QDeclarativePropertyCache::Data::IsQObjectDerived) {
        QObject *o = 0;
        int status = -1;
        int flags = 0;
        void *argv[] = { &o, 0, &status, &flags };
        QMetaObject::metacall(obj, QMetaObject::WriteProperty, lastData->coreIndex, argv);
    } else if (value.isUndefined() && lastData->flags & QDeclarativePropertyCache::Data::IsResettable) {
        void *a[] = { 0 };
        QMetaObject::metacall(obj, QMetaObject::ResetProperty, lastData->coreIndex, a);
    } else if (value.isUndefined() && lastData->propType == qMetaTypeId<QVariant>()) {
        QDeclarativePropertyPrivate::write(obj, *lastData, QVariant(), evalContext);
    } else if (value.isUndefined()) {
        QString error = QLatin1String("Cannot assign [undefined] to ") +
                        QLatin1String(QMetaType::typeName(lastData->propType));
        context->throwError(error);
    } else if (value.isFunction() && !value.isRegExp()) {
        // this is handled by the binding creation above
    } else {
        //### expand optimization for other known types
        if (lastData->propType == QMetaType::Int && value.isNumber()) {
            int rawValue = qRound(value.toNumber());
            int status = -1;
            int flags = 0;
            void *a[] = { (void *)&rawValue, 0, &status, &flags };
            QMetaObject::metacall(obj, QMetaObject::WriteProperty,
                                  lastData->coreIndex, a);
            return;
        } else if (lastData->propType == QMetaType::QReal && value.isNumber()) {
            qreal rawValue = qreal(value.toNumber());
            int status = -1;
            int flags = 0;
            void *a[] = { (void *)&rawValue, 0, &status, &flags };
            QMetaObject::metacall(obj, QMetaObject::WriteProperty,
                                  lastData->coreIndex, a);
            return;
        } else if (lastData->propType == QMetaType::QString && value.isString()) {
            const QString &rawValue = value.toString();
            int status = -1;
            int flags = 0;
            void *a[] = { (void *)&rawValue, 0, &status, &flags };
            QMetaObject::metacall(obj, QMetaObject::WriteProperty,
                                  lastData->coreIndex, a);
            return;
        }

        QVariant v;
        if (lastData->flags & QDeclarativePropertyCache::Data::IsQList)
            v = enginePriv->scriptValueToVariant(value, qMetaTypeId<QList<QObject *> >());
        else
            v = enginePriv->scriptValueToVariant(value, lastData->propType);

        if (!QDeclarativePropertyPrivate::write(obj, *lastData, v, evalContext)) {
            const char *valueType = 0;
            if (v.userType() == QVariant::Invalid) valueType = "null";
            else valueType = QMetaType::typeName(v.userType());

            QString error = QLatin1String("Cannot assign ") +
                            QLatin1String(valueType) +
                            QLatin1String(" to ") +
                            QLatin1String(QMetaType::typeName(lastData->propType));
            context->throwError(error);
        }
    }
}

bool QDeclarativeObjectScriptClass::isQObject() const
{
    return true;
}

QObject *QDeclarativeObjectScriptClass::toQObject(Object *object, bool *ok)
{
    if (ok) *ok = true;

    ObjectData *data = (ObjectData*)object;
    return data->object.data();
}

QScriptValue QDeclarativeObjectScriptClass::tostring(QScriptContext *context, QScriptEngine *)
{
    QObject* obj = context->thisObject().toQObject();

    QString ret;
    if(obj){
        QString objectName = obj->objectName();

        ret += QString::fromUtf8(obj->metaObject()->className());
        ret += QLatin1String("(0x");
        ret += QString::number((quintptr)obj,16);

        if (!objectName.isEmpty()) {
            ret += QLatin1String(", \"");
            ret += objectName;
            ret += QLatin1Char('\"');
        }

        ret += QLatin1Char(')');
    }else{
        ret += QLatin1String("null");
    }
    return QScriptValue(ret);
}

QScriptValue QDeclarativeObjectScriptClass::destroy(QScriptContext *context, QScriptEngine *engine)
{
    QDeclarativeEnginePrivate *p = QDeclarativeEnginePrivate::get(engine);
    QScriptValue that = context->thisObject();

    if (scriptClass(that) != p->objectClass)
        return engine->undefinedValue();

    ObjectData *data = (ObjectData *)p->objectClass->object(that);
    if (!data->object)
        return engine->undefinedValue();

    QDeclarativeData *ddata = QDeclarativeData::get(data->object, false);
    if (!ddata || ddata->indestructible)
        return engine->currentContext()->throwError(QLatin1String("Invalid attempt to destroy() an indestructible object"));

    QObject *obj = data->object;
    int delay = 0;
    if (context->argumentCount() > 0)
        delay = context->argument(0).toInt32();
    if (delay > 0)
        QTimer::singleShot(delay, obj, SLOT(deleteLater()));
    else
        obj->deleteLater();

    return engine->undefinedValue();
}

QStringList QDeclarativeObjectScriptClass::propertyNames(Object *object)
{
    QObject *obj = toQObject(object);
    if (!obj)
        return QStringList();

    QDeclarativeEnginePrivate *enginePrivate = QDeclarativeEnginePrivate::get(engine);

    QDeclarativePropertyCache *cache = 0;
    QDeclarativeData *ddata = QDeclarativeData::get(obj);
    if (ddata)
        cache = ddata->propertyCache;
    if (!cache) {
        cache = enginePrivate->cache(obj);
        if (cache) {
            if (ddata) { cache->addref(); ddata->propertyCache = cache; }
        } else {
            // Not cachable - fall back to QMetaObject (eg. dynamic meta object)
            // XXX QDeclarativeOpenMetaObject has a cache, so this is suboptimal.
            // XXX This is a workaround for QTBUG-9420.
            const QMetaObject *mo = obj->metaObject();
            QStringList r;
            int pc = mo->propertyCount();
            int po = mo->propertyOffset();
            for (int i=po; i<pc; ++i)
                r += QString::fromUtf8(mo->property(i).name());
            return r;
        }
    }
    return cache->propertyNames();
}

bool QDeclarativeObjectScriptClass::compare(Object *o1, Object *o2)
{
    ObjectData *d1 = (ObjectData *)o1;
    ObjectData *d2 = (ObjectData *)o2;

    return d1 == d2 || d1->object == d2->object;
}

class MethodData : public QScriptDeclarativeClass::Object {
public:
    MethodData(QObject *o, const QDeclarativePropertyCache::Data &d) : object(o), data(d) {}

    QDeclarativeGuard<QObject> object;
    QDeclarativePropertyCache::Data data;
};

QDeclarativeObjectMethodScriptClass::QDeclarativeObjectMethodScriptClass(QDeclarativeEngine *bindEngine)
: QScriptDeclarativeClass(QDeclarativeEnginePrivate::getScriptEngine(bindEngine)),
  engine(bindEngine)
{
    qRegisterMetaType<QList<QObject *> >("QList<QObject *>");

    setSupportsCall(true);

    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    m_connect = scriptEngine->newFunction(connect);
    m_connectId = createPersistentIdentifier(QLatin1String("connect"));
    m_disconnect = scriptEngine->newFunction(disconnect);
    m_disconnectId = createPersistentIdentifier(QLatin1String("disconnect"));
}

QDeclarativeObjectMethodScriptClass::~QDeclarativeObjectMethodScriptClass()
{
}

QScriptValue QDeclarativeObjectMethodScriptClass::newMethod(QObject *object, const QDeclarativePropertyCache::Data *method)
{
    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    return newObject(scriptEngine, this, new MethodData(object, *method));
}

QScriptValue QDeclarativeObjectMethodScriptClass::connect(QScriptContext *context, QScriptEngine *engine)
{
    QDeclarativeEnginePrivate *p = QDeclarativeEnginePrivate::get(engine);

    QScriptValue that = context->thisObject();
    if (&p->objectClass->methods != scriptClass(that))
        return engine->undefinedValue();

    MethodData *data = (MethodData *)object(that);

    if (!data->object || context->argumentCount() == 0)
        return engine->undefinedValue();

    QByteArray signal("2");
    signal.append(data->object->metaObject()->method(data->data.coreIndex).methodSignature());

    if (context->argumentCount() == 1) {
        qScriptConnect(data->object, signal.constData(), QScriptValue(), context->argument(0));
    } else {
        qScriptConnect(data->object, signal.constData(), context->argument(0), context->argument(1));
    }

    return engine->undefinedValue();
}

QScriptValue QDeclarativeObjectMethodScriptClass::disconnect(QScriptContext *context, QScriptEngine *engine)
{
    QDeclarativeEnginePrivate *p = QDeclarativeEnginePrivate::get(engine);

    QScriptValue that = context->thisObject();
    if (&p->objectClass->methods != scriptClass(that))
        return engine->undefinedValue();

    MethodData *data = (MethodData *)object(that);

    if (!data->object || context->argumentCount() == 0)
        return engine->undefinedValue();

    QByteArray signal("2");
    signal.append(data->object->metaObject()->method(data->data.coreIndex).methodSignature());

    if (context->argumentCount() == 1) {
        qScriptDisconnect(data->object, signal.constData(), QScriptValue(), context->argument(0));
    } else {
        qScriptDisconnect(data->object, signal.constData(), context->argument(0), context->argument(1));
    }

    return engine->undefinedValue();
}

QScriptClass::QueryFlags
QDeclarativeObjectMethodScriptClass::queryProperty(Object *, const Identifier &name,
                                                   QScriptClass::QueryFlags flags)
{
    Q_UNUSED(flags);
    if (name == m_connectId.identifier || name == m_disconnectId.identifier)
        return QScriptClass::HandlesReadAccess;
    else
        return 0;

}

QDeclarativeObjectMethodScriptClass::Value
QDeclarativeObjectMethodScriptClass::property(Object *, const Identifier &name)
{
    QScriptEngine *scriptEngine = QDeclarativeEnginePrivate::getScriptEngine(engine);

    if (name == m_connectId.identifier)
        return Value(scriptEngine, m_connect);
    else if (name == m_disconnectId.identifier)
        return Value(scriptEngine, m_disconnect);
    else
        return Value();
}

namespace {
struct MetaCallArgument {
    inline MetaCallArgument();
    inline ~MetaCallArgument();
    inline void *dataPtr();

    inline void initAsType(int type, QDeclarativeEngine *);
    void fromScriptValue(int type, QDeclarativeEngine *, const QScriptValue &);
    inline QScriptDeclarativeClass::Value toValue(QDeclarativeEngine *);

private:
    MetaCallArgument(const MetaCallArgument &);

    inline void cleanup();

    union {
        float floatValue;
        double doubleValue;
        quint32 intValue;
        bool boolValue;
        QObject *qobjectPtr;

        char allocData[sizeof(QVariant)];
    };

    // Pointers to allocData
    union {
        QString *qstringPtr;
        QVariant *qvariantPtr;
        QList<QObject *> *qlistPtr;
        QScriptValue *qscriptValuePtr;
    };

    int type;
};
}

MetaCallArgument::MetaCallArgument()
: type(QVariant::Invalid)
{
}

MetaCallArgument::~MetaCallArgument()
{
    cleanup();
}

void MetaCallArgument::cleanup()
{
    if (type == QMetaType::QString) {
        qstringPtr->~QString();
    } else if (type == -1 || type == QMetaType::QVariant) {
        qvariantPtr->~QVariant();
    } else if (type == qMetaTypeId<QScriptValue>()) {
        qscriptValuePtr->~QScriptValue();
    } else if (type == qMetaTypeId<QList<QObject *> >()) {
        qlistPtr->~QList<QObject *>();
    }
}

void *MetaCallArgument::dataPtr()
{
    if (type == -1)
        return qvariantPtr->data();
    else 
        return (void *)&allocData;
}

void MetaCallArgument::initAsType(int callType, QDeclarativeEngine *e)
{
    if (type != 0) { cleanup(); type = 0; }
    if (callType == 0) return;

    QScriptEngine *engine = QDeclarativeEnginePrivate::getScriptEngine(e);

    if (callType == qMetaTypeId<QScriptValue>()) {
        qscriptValuePtr = new (&allocData) QScriptValue(engine->undefinedValue());
        type = callType;
    } else if (callType == QMetaType::Int ||
               callType == QMetaType::UInt ||
               callType == QMetaType::Bool ||
               callType == QMetaType::Double ||
               callType == QMetaType::Float) {
        type = callType;
    } else if (callType == QMetaType::QObjectStar) {
        qobjectPtr = 0;
        type = callType;
    } else if (callType == QMetaType::QString) {
        qstringPtr = new (&allocData) QString();
        type = callType;
    } else if (callType == qMetaTypeId<QVariant>()) {
        type = callType;
        qvariantPtr = new (&allocData) QVariant();
    } else if (callType == qMetaTypeId<QList<QObject *> >()) {
        type = callType;
        qlistPtr = new (&allocData) QList<QObject *>();
    } else if (callType == QMetaType::Void) {
        // In Qt4 QMetaType::Void and QMetaType::UnknownType were both equals to 0 so QtQuick1
        // doesn't always recognize the difference
        return;
    } else {
        type = -1;
        qvariantPtr = new (&allocData) QVariant(callType, (void *)0);
    }
}

void MetaCallArgument::fromScriptValue(int callType, QDeclarativeEngine *engine, const QScriptValue &value)
{
    if (type != 0) { cleanup(); type = 0; }

    if (callType == qMetaTypeId<QScriptValue>()) {
        qscriptValuePtr = new (&allocData) QScriptValue(value);
        type = qMetaTypeId<QScriptValue>();
    } else if (callType == QMetaType::Int) {
        intValue = quint32(value.toInt32());
        type = callType;
    } else if (callType == QMetaType::UInt) {
        intValue = quint32(value.toUInt32());
        type = callType;
    } else if (callType == QMetaType::Bool) {
        boolValue = value.toBool();
        type = callType;
    } else if (callType == QMetaType::Double) {
        doubleValue = double(value.toNumber());
        type = callType;
    } else if (callType == QMetaType::Float) {
        floatValue = float(value.toNumber());
        type = callType;
    } else if (callType == QMetaType::QString) {
        if (value.isNull() || value.isUndefined())
            qstringPtr = new (&allocData) QString();
        else
            qstringPtr = new (&allocData) QString(value.toString());
        type = callType;
    } else if (callType == QMetaType::QObjectStar) {
        qobjectPtr = value.toQObject();
        type = callType;
    } else if (callType == qMetaTypeId<QVariant>()) {
        QVariant other = QDeclarativeEnginePrivate::get(engine)->scriptValueToVariant(value);
        qvariantPtr = new (&allocData) QVariant(other);
        type = callType;
    } else if (callType == qMetaTypeId<QList<QObject*> >()) {
        qlistPtr = new (&allocData) QList<QObject *>(); 
        if (value.isArray()) {
            int length = value.property(QLatin1String("length")).toInt32();
            for (int ii = 0; ii < length; ++ii) {
                QScriptValue arrayItem = value.property(ii);
                QObject *d = arrayItem.toQObject();
                qlistPtr->append(d);
            }
        } else if (QObject *d = value.toQObject()) {
            qlistPtr->append(d);
        }
        type = callType;
    } else {
        qvariantPtr = new (&allocData) QVariant();
        type = -1;

        QDeclarativeEnginePrivate *priv = QDeclarativeEnginePrivate::get(engine);
        QVariant v = priv->scriptValueToVariant(value);
        if (v.userType() == callType) {
            *qvariantPtr = v;
        } else if (v.canConvert((QVariant::Type)callType)) {
            *qvariantPtr = v;
            qvariantPtr->convert((QVariant::Type)callType);
        } else if (const QMetaObject *mo = priv->rawMetaObjectForType(callType)) {
            QObject *obj = priv->toQObject(v);
            
            if (obj) {
                const QMetaObject *objMo = obj->metaObject();
                while (objMo && objMo != mo) objMo = objMo->superClass();
                if (!objMo) obj = 0;
            }

            *qvariantPtr = QVariant(callType, &obj);
        } else {
            *qvariantPtr = QVariant(callType, (void *)0);
        }
    }
}

QScriptDeclarativeClass::Value MetaCallArgument::toValue(QDeclarativeEngine *e)
{
    QScriptEngine *engine = QDeclarativeEnginePrivate::getScriptEngine(e);

    if (type == qMetaTypeId<QScriptValue>()) {
        return QScriptDeclarativeClass::Value(engine, *qscriptValuePtr);
    } else if (type == QMetaType::Int) {
        return QScriptDeclarativeClass::Value(engine, int(intValue));
    } else if (type == QMetaType::UInt) {
        return QScriptDeclarativeClass::Value(engine, uint(intValue));
    } else if (type == QMetaType::Bool) {
        return QScriptDeclarativeClass::Value(engine, boolValue);
    } else if (type == QMetaType::Double) {
        return QScriptDeclarativeClass::Value(engine, doubleValue);
    } else if (type == QMetaType::Float) {
        return QScriptDeclarativeClass::Value(engine, floatValue);
    } else if (type == QMetaType::QString) {
        return QScriptDeclarativeClass::Value(engine, *qstringPtr);
    } else if (type == QMetaType::QObjectStar) {
        if (qobjectPtr)
            QDeclarativeData::get(qobjectPtr, true)->setImplicitDestructible();
        QDeclarativeEnginePrivate *priv = QDeclarativeEnginePrivate::get(e);
        return QScriptDeclarativeClass::Value(engine, priv->objectClass->newQObject(qobjectPtr));
    } else if (type == qMetaTypeId<QList<QObject *> >()) {
        QList<QObject *> &list = *qlistPtr;
        QScriptValue rv = engine->newArray(list.count());
        QDeclarativeEnginePrivate *priv = QDeclarativeEnginePrivate::get(e);
        for (int ii = 0; ii < list.count(); ++ii) {
            QObject *object = list.at(ii);
            QDeclarativeData::get(object, true)->setImplicitDestructible();
            rv.setProperty(ii, priv->objectClass->newQObject(object));
        }
        return QScriptDeclarativeClass::Value(engine, rv);
    } else if (type == -1 || type == qMetaTypeId<QVariant>()) {
        QDeclarativeEnginePrivate *ep = QDeclarativeEnginePrivate::get(e);
        QScriptValue rv = ep->scriptValueFromVariant(*qvariantPtr);
        if (rv.isQObject()) {
            QObject *object = rv.toQObject();
            if (object)
                QDeclarativeData::get(object, true)->setImplicitDestructible();
        }
        return QScriptDeclarativeClass::Value(engine, rv);
    } else {
        return QScriptDeclarativeClass::Value();
    }
}

int QDeclarativeObjectMethodScriptClass::enumType(const QMetaObject *meta, const QString &strname)
{
    QByteArray str = strname.toUtf8();
    QByteArray scope;
    QByteArray name;
    int scopeIdx = str.lastIndexOf("::");
    if (scopeIdx != -1) {
        scope = str.left(scopeIdx);
        name = str.mid(scopeIdx + 2);
    } else { 
        name = str;
    }
    for (int i = meta->enumeratorCount() - 1; i >= 0; --i) {
        QMetaEnum m = meta->enumerator(i);
        if ((m.name() == name) && (scope.isEmpty() || (m.scope() == scope)))
            return QVariant::Int;
    }
    return QVariant::Invalid;
}

QDeclarativeObjectMethodScriptClass::Value QDeclarativeObjectMethodScriptClass::call(Object *o, QScriptContext *ctxt)
{
    MethodData *method = static_cast<MethodData *>(o);

    if (method->data.relatedIndex == -1)
        return callPrecise(method->object, method->data, ctxt);
    else
        return callOverloaded(method, ctxt);
}

QDeclarativeObjectMethodScriptClass::Value 
QDeclarativeObjectMethodScriptClass::callPrecise(QObject *object, const QDeclarativePropertyCache::Data &data, 
                                                 QScriptContext *ctxt)
{
    if (data.flags & QDeclarativePropertyCache::Data::HasArguments) {

        QMetaMethod m = object->metaObject()->method(data.coreIndex);
        QList<QByteArray> argTypeNames = m.parameterTypes();
        QVarLengthArray<int, 9> argTypes(argTypeNames.count());

        // ### Cache
        for (int ii = 0; ii < argTypeNames.count(); ++ii) {
            argTypes[ii] = QMetaType::type(argTypeNames.at(ii));
            if (argTypes[ii] == QVariant::Invalid) 
                argTypes[ii] = enumType(object->metaObject(), QString::fromLatin1(argTypeNames.at(ii)));
            if (argTypes[ii] == QVariant::Invalid) 
                return Value(ctxt, ctxt->throwError(QString::fromLatin1("Unknown method parameter type: %1").arg(QLatin1String(argTypeNames.at(ii)))));
        }

        if (argTypes.count() > ctxt->argumentCount())
            return Value(ctxt, ctxt->throwError(QLatin1String("Insufficient arguments")));

        return callMethod(object, data.coreIndex, data.propType, argTypes.count(), argTypes.data(), ctxt);

    } else {

        return callMethod(object, data.coreIndex, data.propType, 0, 0, ctxt);

    }
}

QDeclarativeObjectMethodScriptClass::Value 
QDeclarativeObjectMethodScriptClass::callMethod(QObject *object, int index, 
                                                int returnType, int argCount, int *argTypes, 
                                                QScriptContext *ctxt)
{
    if (argCount > 0) {

        QVarLengthArray<MetaCallArgument, 9> args(argCount + 1);
        args[0].initAsType(returnType, engine);

        for (int ii = 0; ii < argCount; ++ii)
            args[ii + 1].fromScriptValue(argTypes[ii], engine, ctxt->argument(ii));

        QVarLengthArray<void *, 9> argData(args.count());
        for (int ii = 0; ii < args.count(); ++ii)
            argData[ii] = args[ii].dataPtr();

        QMetaObject::metacall(object, QMetaObject::InvokeMetaMethod, index, argData.data());

        return args[0].toValue(engine);

    } else if (returnType != 0) {
        
        MetaCallArgument arg;
        arg.initAsType(returnType, engine);

        void *args[] = { arg.dataPtr() };

        QMetaObject::metacall(object, QMetaObject::InvokeMetaMethod, index, args);

        return arg.toValue(engine);

    } else {

        void *args[] = { 0 };
        QMetaObject::metacall(object, QMetaObject::InvokeMetaMethod, index, args);
        return Value();

    }
}

/*!
Resolve the overloaded method to call.  The algorithm works conceptually like this:
    1.  Resolve the set of overloads it is *possible* to call.
        Impossible overloads include those that have too many parameters or have parameters 
        of unknown type.  
    2.  Filter the set of overloads to only contain those with the closest number of 
        parameters.
        For example, if we are called with 3 parameters and there are 2 overloads that
        take 2 parameters and one that takes 3, eliminate the 2 parameter overloads.
    3.  Find the best remaining overload based on its match score.  
        If two or more overloads have the same match score, call the last one.  The match
        score is constructed by adding the matchScore() result for each of the parameters.
*/
QDeclarativeObjectMethodScriptClass::Value
QDeclarativeObjectMethodScriptClass::callOverloaded(MethodData *method, QScriptContext *ctxt)
{
    int argumentCount = ctxt->argumentCount();

    QDeclarativePropertyCache::Data *best = 0;
    int bestParameterScore = INT_MAX;
    int bestMatchScore = INT_MAX;

    QDeclarativePropertyCache::Data dummy;
    QDeclarativePropertyCache::Data *attempt = &method->data;

    do {
        QList<QByteArray> methodArgTypeNames;

        if (attempt->flags & QDeclarativePropertyCache::Data::HasArguments)
            methodArgTypeNames = method->object->metaObject()->method(attempt->coreIndex).parameterTypes();

        int methodArgumentCount = methodArgTypeNames.count();

        if (methodArgumentCount > argumentCount)
            continue; // We don't have sufficient arguments to call this method

        int methodParameterScore = argumentCount - methodArgumentCount;
        if (methodParameterScore > bestParameterScore)
            continue; // We already have a better option

        int methodMatchScore = 0;
        QVarLengthArray<int, 9> methodArgTypes(methodArgumentCount);

        bool unknownArgument = false;
        for (int ii = 0; ii < methodArgumentCount; ++ii) {
            methodArgTypes[ii] = QMetaType::type(methodArgTypeNames.at(ii));
            if (methodArgTypes[ii] == QVariant::Invalid) 
                methodArgTypes[ii] = enumType(method->object->metaObject(), 
                                              QString::fromLatin1(methodArgTypeNames.at(ii)));
            if (methodArgTypes[ii] == QVariant::Invalid) {
                unknownArgument = true;
                break;
            }
            methodMatchScore += matchScore(ctxt->argument(ii), methodArgTypes[ii], methodArgTypeNames.at(ii));
        }
        if (unknownArgument)
            continue; // We don't understand all the parameters

        if (bestParameterScore > methodParameterScore || bestMatchScore > methodMatchScore) {
            best = attempt;
            bestParameterScore = methodParameterScore;
            bestMatchScore = methodMatchScore;
        }

        if (bestParameterScore == 0 && bestMatchScore == 0)
            break; // We can't get better than that

    } while((attempt = relatedMethod(method->object, attempt, dummy)) != 0);

    if (best) {
        return callPrecise(method->object, *best, ctxt);
    } else {
        QString error = QLatin1String("Unable to determine callable overload.  Candidates are:");
        QDeclarativePropertyCache::Data *candidate = &method->data;
        while (candidate) {
            error += QLatin1String("\n    ") + QString::fromUtf8(method->object->metaObject()->method(candidate->coreIndex).methodSignature());
            candidate = relatedMethod(method->object, candidate, dummy);
        }
        return Value(ctxt, ctxt->throwError(error));
    }
}

/*!
    Returns the match score for converting \a actual to be of type \a conversionType.  A 
    zero score means "perfect match" whereas a higher score is worse.

    The conversion table is copied out of the QtScript callQtMethod() function.
*/
int QDeclarativeObjectMethodScriptClass::matchScore(const QScriptValue &actual, int conversionType, 
                                                    const QByteArray &conversionTypeName)
{
    if (actual.isNumber()) {
        switch (conversionType) {
        case QMetaType::Double:
            return 0;
        case QMetaType::Float:
            return 1;
        case QMetaType::LongLong:
        case QMetaType::ULongLong:
            return 2;
        case QMetaType::Long:
        case QMetaType::ULong:
            return 3;
        case QMetaType::Int:
        case QMetaType::UInt:
            return 4;
        case QMetaType::Short:
        case QMetaType::UShort:
            return 5;
            break;
        case QMetaType::Char:
        case QMetaType::UChar:
            return 6;
        default:
            return 10;
        }
    } else if (actual.isString()) {
        switch (conversionType) {
        case QMetaType::QString:
            return 0;
        default:
            return 10;
        }
    } else if (actual.isBoolean()) {
        switch (conversionType) {
        case QMetaType::Bool:
            return 0;
        default:
            return 10;
        }
    } else if (actual.isDate()) {
        switch (conversionType) {
        case QMetaType::QDateTime:
            return 0;
        case QMetaType::QDate:
            return 1;
        case QMetaType::QTime:
            return 2;
        default:
            return 10;
        }
    } else if (actual.isRegExp()) {
        switch (conversionType) {
        case QMetaType::QRegExp:
            return 0;
        default:
            return 10;
        }
    } else if (actual.isVariant()) {
        if (conversionType == qMetaTypeId<QVariant>())
            return 0;
        else if (actual.toVariant().userType() == conversionType)
            return 0;
        else
            return 10;
    } else if (actual.isArray()) {
        switch (conversionType) {
        case QMetaType::QStringList:
        case QMetaType::QVariantList:
            return 5;
        default:
            return 10;
        }
    } else if (actual.isQObject()) {
        switch (conversionType) {
        case QMetaType::QObjectStar:
            return 0;
        default:
            return 10;
        }
    } else if (actual.isNull()) {
        switch (conversionType) {
        case QMetaType::VoidStar:
        case QMetaType::QObjectStar:
            return 0;
        default:
            if (!conversionTypeName.endsWith('*'))
                return 10;
            else
                return 0;
        }
    } else {
        return 10;
    }
}

static inline int QMetaObject_methods(const QMetaObject *metaObject)
{
    struct Private
    {
        int revision;
        int className;
        int classInfoCount, classInfoData;
        int methodCount, methodData;
    };

    return reinterpret_cast<const Private *>(metaObject->d.data)->methodCount;
}

static QByteArray QMetaMethod_name(const QMetaMethod &m)
{
    QByteArray sig = m.methodSignature();
    int paren = sig.indexOf('(');
    if (paren == -1)
        return sig;
    else
        return sig.left(paren);
}

/*!
Returns the next related method, if one, or 0.
*/
QDeclarativePropertyCache::Data *
QDeclarativeObjectMethodScriptClass::relatedMethod(QObject *object, QDeclarativePropertyCache::Data *current, 
                                                   QDeclarativePropertyCache::Data &dummy)
{
    QDeclarativePropertyCache *cache = QDeclarativeData::get(object)->propertyCache;
    if (current->relatedIndex == -1)
        return 0;

    if (cache) {
        return cache->method(current->relatedIndex);
    } else {
        const QMetaObject *mo = object->metaObject();
        int methodOffset = mo->methodCount() - QMetaObject_methods(mo);

        while (methodOffset > current->relatedIndex) {
            mo = mo->superClass();
            methodOffset -= QMetaObject_methods(mo);
        }

        QMetaMethod method = mo->method(current->relatedIndex);
        dummy.load(method);
        
        // Look for overloaded methods
        QByteArray methodName = QMetaMethod_name(method);
        for (int ii = current->relatedIndex - 1; ii >= methodOffset; --ii) {
            if (methodName == QMetaMethod_name(mo->method(ii))) {
                dummy.relatedIndex = ii;
                return &dummy;
            }
        }

        return &dummy;
    }
}

QT_END_NAMESPACE

